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bioRxiv preprint doi: https://doi.org/10.1101/381459; this version posted October 8, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. Atherton, Jondelius Microstomidae 1(118) 1 2 Sarah Atherton2, Ulf Jondelius1,2 3 4 A taxonomic review and revisions of Microstomidae (Platyhelminthes: 5 Macrostomorpha) 6 7 8 1. Department of Zoology, Systematics and Evolution, Stockholms Universitet, 9 SE-106 91 Stockholm 10 2. Department of Zoology, Naturhistoriska riksmuseet 11 Box 50007, SE-104 05 Stockholm 12 13 14 15 16 17 18 19 20 21 22 23 24 25 bioRxiv preprint doi: https://doi.org/10.1101/381459; this version posted October 8, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. Atherton, Jondelius Microstomidae 2(118) 26 Abstract 27 Microstomidae (Platyhelminthes: Macrostomorpha) diversity has been almost entirely 28 ignored within recent years, likely due to inconsistent and often old taxonomic 29 literature and a general rarity of sexually mature collected specimens. Herein, we 30 reconstruct the phylogenetic relationships of the group using both previously 31 published and new 18S and CO1 gene sequences. We present some taxonomic 32 revisions of Microstomidae and further describe 8 new species of Microstomum based 33 on both molecular and morphological evidence. Finally, we briefly review the 34 morphological taxonomy of each species and provide a key to aid in future research 35 and identification that is not dependent on reproductive morphology. Our goal is to 36 clarify the taxonomy and facilitate future research into an otherwise very understudied 37 group of tiny (but important) flatworms. 38 39 40 Introduction 41 Macrostomorpha DOE, 1986 is a group of free-living Platyhelminthes found 42 worldwide in aquatic and semi-aquatic habitats (Rieger 2001). They are very small in 43 size, typically only 1-2 mm, but are nevertheless important and often abundant 44 members of their communities, feeding on diatoms and other microorganisms or even 45 other small invertebrates (Ax 1995; Carrasco 2012; Atherton & Jondelius 2018b). 46 While the deep splits within Macrostomorpha remain ambiguous, current 47 phylogenetic hypotheses (Littlewood et al. 1999; Litvaitis & Rohde, 1999; Janssen et 48 al. 2015), place Microstomidae as sister to Dolichomacrostomidae within the group 49 Dolichomicrostomida. bioRxiv preprint doi: https://doi.org/10.1101/381459; this version posted October 8, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. Atherton, Jondelius Microstomidae 3(118) 50 Microstomidae LUTHER 1907 are characterised by ciliated sensory pits at the 51 frontal end, an intestine extending anteriorly past the mouth, and the ability to 52 reproduce asexually through fissioning. Currently, Microstomidae is unevenly divided 53 between three genera: Myozonella BEKLEMISHEV, 1955, with only a single species 54 Myozonella microstomoides BEKLEMISHEV, 1955 collected from a village in western 55 Russia and characterized by a muscular ring surrounding the anterior intestine; 56 Alaurina BUSCH 1851, with three currently accepted species all with an elongated and 57 unciliated (apart from sensory cilia) anterior proboscis; and the highly diverse and 58 speciose genus Microstomum ØRSTED 1843. 59 Species of Microstomidae have been considered difficult to distinguish 60 through traditional morphological methods. Their small size, relatively few 61 morphological characters, and high amounts of intraspecific variation (Luther 1960; 62 Bauchhens 1971; Heitkamp 1982; Atherton & Jondelius 2018b) all present taxonomic 63 challenges, especially as sexually mature specimens are generally rare. Furthermore, 64 the taxonomic literature may sometimes lack detail and is often old and/or difficult to 65 access, such that even the otherwise-reliable WORMS database 66 (http://www.marinespecies.org/aphia.php?p=taxdetails&id=142210) includes 67 numerous mistakes (e.g. recognition of M. hanatum, still listing M. giganteum as 68 synonymous to M. lineare). Taken together, it is unsurprising that while there has 69 been some recent studies of species diversity within Macrostomorpha in general (e.g., 70 Schockaert 2014; Sun et al. 2014; Janssen et al. 2015; Fang et al. 2016; Reyes & 71 Brusa 2017; Lin et al. 2017a, b;), taxonomic research within Microstomidae from 72 even the last 50 years has been restricted to a very few articles (Faubel 1974, 1984; 73 Rogozin 2015; Atherton & Jondelius 2018 a,b). bioRxiv preprint doi: https://doi.org/10.1101/381459; this version posted October 8, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. Atherton, Jondelius Microstomidae 4(118) 74 Species of Microstomidae primarily reproduce through asexual fission, but 75 their life cycle may also include short periods of sexual reproduction occurring 76 primarily in the autumn (Bauchhenss 1971; Heitkamp 1982). During this time, 77 individual zooids will develop male and female sexual structures, including for the 78 male complex: single or bilateral testes, vasa deferentia, and a male copulatory 79 apparatus with vesicula seminalis, stylet and antrum masculinum; and for the female 80 complex: a single ovary and a female antrum. Species of Microstomidae may be 81 sexually mature for as little as two weeks a year or less (Bauchhenss 1971; Faubel 82 1974) and thus full or partial sexual anatomy is currently only known for roughly half 83 of the nominal species. Since species identification of Macrostomorpha has often 84 been based heavily or, in some cases, entirely on the morphology of the reproductive 85 organs (e.g. Nasonov 1935; Ax & Armonies 1987; Faubel & Cameron 2001), some 86 authors have argued that any species with unknown sexual anatomy should be 87 instantly considered species dubiae (Faubel 1984). 88 For Microstomidae with limited morphological data available, analysis of 89 nucleotide sequence data will be an indispensable tool when solving taxonomic 90 problems. DNA taxonomy is not without its own pitfalls (e.g. sensitivity to sampling, 91 overlap between intra and interspecific variation; DeSalle et al. 2005; Meier et al. 92 2006; Sauer & Hausdorf 2012), but has nevertheless been demonstrated as a reliable 93 and reproducible method to identify lineages without depending solely on 94 morphological characters that may be sensitive to environmental conditions or access 95 to sexually mature specimens (Pérez-Ponce de León & Poulin 2016; Fonseca et al. 96 2017). A number of different approaches to sequence-based species discovery, or 97 DNA-taxonomy, have been developed, including haplotype networks based on 98 statistical parsimony (Templeton et al. 1992), Bayesian species delineation (Yang & bioRxiv preprint doi: https://doi.org/10.1101/381459; this version posted October 8, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. Atherton, Jondelius Microstomidae 5(118) 99 Rannala 2010; Zhang et al. 2013), and maximum likelihood approaches with the 100 General Mixed Yule-Coalescent model (Pons et al. 2006). 101 DNA taxonomy may be more effective than traditional morphological 102 methods in discerning species, as re-examination of morphological taxa often reveals 103 hidden biodiversity in morphologically inseparable, i.e. cryptic species (Fiser et al. 104 2018). Successful DNA-taxonomy requires use of a molecular marker with an 105 appropriate level of variation, or, preferably, more than one such marker (Fontaneto et 106 al. 2015). Recent molecular investigations into the widespread taxon Microstomum 107 lineare revealed an assemblage of four genetically divergent but morphologically 108 similar species, some of which were found in the same sample (Atherton & Jondelius 109 2018b). The presence of multiple distinct but cryptic lineages in single locations 110 potentially could have much larger implications for Microstomidae research, 111 especially since studies in the past have often been performed on specimens collected 112 from environmental samples (e.g. Bauchhenss 1971; Heitkamp 1982; Reuter & 113 Palmberg 1989; Gutafsson et al. 1995). 114 In this paper, we reconstruct the phylogenetic relationships of Microstomum 115 using both previously published and new 18S and CO1 nucleotide sequences. Our 116 dataset comprises sequences from 336 specimens representing 15 previously 117 described nominal species and eight new species. The new taxa are diagnosed on the 118 basis of DNA-taxonomy as well as morphological characters that distinguish them 119 from all other known Microstomum species. We also review the morphological 120 taxonomy of the species within Microstomidae and provide a key to aid in future 121 research and identification.

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